scaffold-mcp-server
О программе
Этот навык Claude создает полный, готовый к запуску проект сервера MCP из спецификации инструментов, используя официальный TypeScript или Python SDK. Он формирует правильную структуру, включая конфигурацию транспорта, обработчики инструментов и тестовую обвязку. Используйте его при запуске нового сервера MCP, миграции существующей интеграции или прототипировании инструментальной поверхности для тестирования.
Быстрая установка
Claude Code
Рекомендуетсяnpx skills add pjt222/agent-almanac -a claude-code/plugin add https://github.com/pjt222/agent-almanacgit clone https://github.com/pjt222/agent-almanac.git ~/.claude/skills/scaffold-mcp-serverСкопируйте и вставьте эту команду в Claude Code для установки этого навыка
Документация
Scaffold MCP Server
Generate complete, runnable MCP server project from tool spec. Use official MCP SDK for TypeScript or Python.
When Use
- Have tool spec (from
analyze-codebase-for-mcpor written) and need working server - Start new MCP server project, want correct structure from start
- Migrate existing tool integration to MCP protocol
- Prototype tool surface to test with Claude Code before full impl
- Need both server scaffold + test harness for CI
Inputs
- Required: Tool spec doc (YAML or JSON with tool names, params, return types)
- Required: Target language (
typescriptorpython) - Required: Transport type (
stdioorsse) - Optional: Output dir (default: current)
- Optional: Package name + version
- Optional: Auth method (
none,bearer-token,api-key) - Optional: Docker packaging (
trueorfalse, default:false)
Steps
Step 1: Select SDK Language and Transport
1.1. Choose language by project context.
- TypeScript: Best for Node.js, web tools, JSON-heavy
- Python: Best for data science, ML, scientific computing
1.2. Choose transport.
- stdio: Default for local. Claude Code launches server as subprocess.
- SSE (Server-Sent Events): For remote/shared. Needs HTTP hosting.
1.3. Determine auth.
- none: Local stdio (process-level trust)
- bearer-token: Remote SSE with static tokens
- api-key: Remote with per-client keys
Got: Clear language, transport, auth choices documented.
If fail: Requirements ambiguous? Default TypeScript + stdio + no auth for fastest time-to-working-server.
Step 2: Initialize Project Structure
2.1. Create project dir + init.
TypeScript:
mkdir -p $PROJECT_NAME && cd $PROJECT_NAME
npm init -y
npm install @modelcontextprotocol/sdk zod
npm install -D typescript @types/node tsx
npx tsc --init --target ES2022 --module nodenext --moduleResolution nodenext --outDir dist
Python:
mkdir -p $PROJECT_NAME && cd $PROJECT_NAME
python -m venv .venv
source .venv/bin/activate
pip install mcp pydantic
2.2. Standard dir structure.
$PROJECT_NAME/
├── src/
│ ├── index.ts|main.py # Server entry point
│ ├── tools/ # One file per tool category
│ │ ├── index.ts|__init__.py
│ │ └── [category].ts|.py
│ └── utils/ # Shared utilities
│ └── validation.ts|.py
├── test/
│ ├── harness.ts|.py # MCP test harness
│ └── tools/
│ └── [category].test.ts|.py
├── package.json|pyproject.toml
├── tsconfig.json # TypeScript only
├── Dockerfile # If Docker requested
└── README.md
2.3. Add bin entry for npm (TS) or entry point for Python.
TypeScript package.json:
{
"name": "$PACKAGE_NAME",
"version": "1.0.0",
"type": "module",
"bin": { "$PACKAGE_NAME": "./dist/index.js" },
"scripts": {
"build": "tsc",
"start": "node dist/index.js",
"dev": "tsx src/index.ts",
"test": "tsx test/harness.ts"
}
}
Got: Buildable project skeleton with all deps installed.
If fail: npm/pip install fails? Check network + registry access. TS: ensure Node.js >= 18. Python: ensure Python >= 3.10.
Step 3: Implement Tool Handlers from Spec
3.1. Parse tool spec doc, generate handler per tool.
TypeScript handler template:
import { McpServer } from "@modelcontextprotocol/sdk/server/mcp.js";
import { z } from "zod";
export function registerTools(server: McpServer): void {
server.tool(
"tool_name",
"Tool description from spec",
{
param1: z.string().describe("Parameter description"),
param2: z.number().optional().default(10).describe("Optional param"),
},
async ({ param1, param2 }) => {
try {
// TODO: Implement tool logic
const result = await performAction(param1, param2);
return {
content: [{ type: "text", text: JSON.stringify(result, null, 2) }],
};
} catch (error) {
return {
content: [{ type: "text", text: `Error: ${(error as Error).message}` }],
isError: true,
};
}
}
);
}
Python handler template:
from mcp.server import Server
from mcp.types import Tool, TextContent
from pydantic import BaseModel
class ToolNameParams(BaseModel):
param1: str
param2: int = 10
async def handle_tool_name(params: ToolNameParams) -> list[TextContent]:
try:
result = await perform_action(params.param1, params.param2)
return [TextContent(type="text", text=json.dumps(result, indent=2))]
except Exception as e:
return [TextContent(type="text", text=f"Error: {e}")]
3.2. Generate one handler file per tool category from spec.
3.3. Add input validation beyond type check.
- String length limits
- Numeric range bounds
- Enum value constraints
- Required field enforcement
3.4. Add structured error responses for all anticipated failures.
Got: Handler file per category with typed params + error handling.
If fail: Spec contains ambiguous types? Default to string, add TODO for manual refinement.
Step 4: Configure Transport
4.1. Make server entry with chosen transport.
stdio (TypeScript):
import { McpServer } from "@modelcontextprotocol/sdk/server/mcp.js";
import { StdioServerTransport } from "@modelcontextprotocol/sdk/server/stdio.js";
import { registerTools } from "./tools/index.js";
const server = new McpServer({
name: "$PACKAGE_NAME",
version: "1.0.0",
});
registerTools(server);
const transport = new StdioServerTransport();
await server.connect(transport);
SSE (TypeScript):
import { McpServer } from "@modelcontextprotocol/sdk/server/mcp.js";
import { SSEServerTransport } from "@modelcontextprotocol/sdk/server/sse.js";
import { registerTools } from "./tools/index.js";
const server = new McpServer({
name: "$PACKAGE_NAME",
version: "1.0.0",
});
registerTools(server);
const transport = new SSEServerTransport("/messages", response);
await server.connect(transport);
4.2. If auth needed, add middleware.
- Bearer token: validate
Authorizationheader - API key: validate
X-API-Keyheader
4.3. Add shebang for stdio servers to enable direct exec.
#!/usr/bin/env node
Got: Working entry that starts MCP server on configured transport.
If fail: SDK version does not match import paths? Check @modelcontextprotocol/sdk version, adjust imports. SDK restructured paths between versions.
Step 5: Create Test Harness
5.1. Build harness that validates every tool.
import { McpServer } from "@modelcontextprotocol/sdk/server/mcp.js";
import { InMemoryTransport } from "@modelcontextprotocol/sdk/inMemory.js";
import { Client } from "@modelcontextprotocol/sdk/client/index.js";
async function runTests(): Promise<void> {
const server = createServer();
const [clientTransport, serverTransport] = InMemoryTransport.createLinkedPair();
await server.connect(serverTransport);
const client = new Client({ name: "test-client", version: "1.0.0" });
await client.connect(clientTransport);
// Test: tools/list returns all expected tools
const tools = await client.listTools();
console.assert(tools.tools.length === EXPECTED_TOOL_COUNT);
// Test: each tool with valid input
for (const tool of tools.tools) {
const result = await client.callTool({
name: tool.name,
arguments: getTestInput(tool.name),
});
console.assert(!result.isError, `${tool.name} failed`);
}
// Test: each tool with invalid input returns isError
for (const tool of tools.tools) {
const result = await client.callTool({
name: tool.name,
arguments: getInvalidInput(tool.name),
});
console.assert(result.isError, `${tool.name} should reject invalid input`);
}
console.log("All tests passed");
}
5.2. Make test fixtures per tool: valid, invalid, edge cases.
5.3. Add test script to package.json or pyproject.toml.
Got: Test harness exercises every tool with valid + invalid inputs.
If fail: InMemoryTransport not in SDK version? Fall back to spawning server as subprocess, communicate via stdio pipes.
Step 6: Generate Documentation and Configuration
6.1. Generate README.md with.
- Project description
- Install instructions
- Claude Code config command
- Claude Desktop JSON snippet
- Tool listing with descriptions, param schemas
- Dev + testing instructions
6.2. Generate Claude Code registration command.
# stdio transport
claude mcp add $PACKAGE_NAME stdio "node" "dist/index.js"
# SSE transport
claude mcp add $PACKAGE_NAME -e API_KEY=your_key -- mcp-remote http://localhost:3000/mcp
6.3. Generate Claude Desktop config snippet.
{
"mcpServers": {
"$PACKAGE_NAME": {
"command": "node",
"args": ["path/to/dist/index.js"]
}
}
}
6.4. If Docker requested, generate Dockerfile.
FROM node:20-slim AS build
WORKDIR /app
COPY package*.json ./
RUN npm ci
COPY . .
RUN npm run build
FROM node:20-slim
WORKDIR /app
COPY --from=build /app/dist ./dist
COPY --from=build /app/node_modules ./node_modules
COPY --from=build /app/package.json .
ENTRYPOINT ["node", "dist/index.js"]
Got: Complete docs + config files for immediate use.
If fail: README has placeholder values? Search project for actual values to substitute. Docker build fails? Verify base image matches Node.js/Python version used.
Checks
- Project builds without errors (
npm run buildor equiv) - Server starts, responds to
tools/listJSON-RPC request - Every tool from spec registered, discoverable
- Test harness passes for all tools with valid inputs
- Test harness confirms error responses for invalid inputs
- Claude Code can connect via
claude mcp addcommand - README has working install + config instructions
- All generated code passes linting (if configured)
Pitfalls
- SDK import path changes:
@modelcontextprotocol/sdkpackage restructured exports between versions. Always check installed version's actual export paths. - Forget shebang: stdio servers invoked direct need
#!/usr/bin/env nodeas first line to be executable. - Block event loop: Tool handlers in TS must be
async. Sync ops block all other tool calls on server. - Missing
type: "module"in package.json: MCP SDK uses ESM imports. Without it, Node.js treats files as CommonJS, imports fail. - Zod schema drift: Tool spec evolves but Zod schemas not updated = validation mismatches = silent failures. Generate schemas from single source of truth.
- stdout pollution: stdio transport uses stdout for JSON-RPC. Any
console.login tool handlers corrupts protocol stream. Useconsole.erroror file logger.
See Also
analyze-codebase-for-mcp- generate tool spec this skill consumesbuild-custom-mcp-server- manual server impl for complex casesconfigure-mcp-server- connect scaffolded server to Claude Code/Desktoptroubleshoot-mcp-connection- debug connectivity issues after deploymentcontainerize-mcp-server- package server in Docker for distribution
GitHub репозиторий
Frequently asked questions
What is the scaffold-mcp-server skill?
scaffold-mcp-server is a Claude Skill by pjt222. Skills package instructions and resources that Claude loads on demand, so Claude can perform scaffold-mcp-server-related tasks without extra prompting.
How do I install scaffold-mcp-server?
Use the install commands on this page: add scaffold-mcp-server to Claude Code as a plugin, or clone its repository into your skills directory, then restart Claude so it picks up the skill.
What category does scaffold-mcp-server belong to?
scaffold-mcp-server is in the Testing category, tagged ai, testing and mcp.
Is scaffold-mcp-server free to use?
Yes. scaffold-mcp-server is listed on AIMCP and free to install. It runs inside Claude, so no separate service account is required to use the skill itself.
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